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Duocastella, M., Vicidomini, G. & Diaspro, A. Simultaneous multiplane confocal microscopy using acoustic tunable lenses. Opt. Express 22, 19293–19301 (2014).
Lee, J., Park, Y. & Chung, S. K. Multifunctional liquid lens for variable focus and aperture. Sensors Actuators A 287, 177–184 (2019).
Jiang, J. et al. Fast 3-D temporal focusing microscopy using an electrically tunable lens. Opt. Express 23, 24362–24368 (2015).
Basu, R. Effects of graphene on electro-optic switching and spontaneous polarization of a ferroelectric liquid crystal. Appl. Phys. Lett. 105, 112905 (2014).
Yin, S. et al. Nanosecond KTN varifocal lens without electric field induced phase transition. Photonic Fiber Cryst. Devices Adv. Mater. Innov. Device Appl. XI https://doi.org/10.1117/12.2276511 (2017).
Kong, L. et al. Continuous volumetric imaging via an optical phase-locked ultrasound lens. Nat. Methods 12, 759–762 (2015).
The DD rail system is an anesthetic solution for installing multiple Aquaillumination LED lamps above an aquarium and is made of an anodized aluminum profile with stainless ...
Chang, C., Lin, Y., Srivastava, A. K. & Chigrinov, V. G. An optical system via liquid crystal photonic devices for photobiomodulation. Sci. Rep. 8, 4251 (2018).
Cheng, H. C., Xu, S., Liu, Y., Levi, S. & Wu, S. T. Adaptive mechanical-wetting lens actuated by ferrofluids. Opt. Commun. 284, 2118–2121 (2011).
Guo, Q., Zhao, X., Zhao, H. & Chigrinov, V. G. Reverse bistable effect in ferroelectric liquid crystal devices with ultra-fast switching at low driving voltage. Opt. Lett. 40, 2413–2416 (2015).
Condition. Used - Good. Band Color. Silver. Decor Style. Contemporary. Nice high intensity desk lamp - works fine. Omaha, NE. Location is approximate. Seller ...
Sheffield, M. E. J. & Dombeck, D. A. Calcium transient prevalence across the dendritic arbour predicts place field properties. Nature 517, 200–204 (2015).
Salter, P. S., Iqbal, Z. & Booth, M. J. Analysis of the three-dimensional focal positioning capability of adaptive optic elements. Int. J. Optomechatronics 7, 1–14 (2013).
Choi, J. M., Son, H. M. & Lee, Y. J. Biomimetic variable-focus lens system controlled by winding-type SMA actuator. Opt. Express 17, 8152–8164 (2009).
Kim, J., Lee, J. & Won, Y. H. Method to reduce the aberration of a polygonal aperture focus-tunable lens array for high fill factor. Opt. Lett. 44, 2554–2557 (2019).
Aqua-illumination Hydra 64 HD LED - white is the latest generation of LED. The latest products in the Hydra line from AquaIllumination, the Hydra 32 & 64 HD. The LED lamps brin...
Mishra, K., van den Ende, D. & Mugele, F. Recent developments in optofluidic lens technology. Micromachines 7, 102 (2016).
Hasan, N., Kim, H. & Mastrangelo, C. H. Large aperture tunable-focus liquid lens using shape memory alloy spring. Opt. Express 24, 13334–13342 (2016).
Radhakrishnan, H. & Charman, W. N. Optical characteristics of Alvarez variable-power spectacles. Ophthalmic Physiol. Opt. 37, 284–296 (2017).
Cao, J. et al. Bioinspired zoom compound eyes enable variable-focus imaging. ACS Appl. Mater. Interfaces 12, 10107–10117 (2020).
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Yamato, K., Yamashita, T., Chiba, H. & Oku, H. Fast volumetric feedback under microscope by temporally coded exposure camera. Sensors 19, 1606 (2019).
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Sreenilayam, S. P. et al. Spontaneous helix formation in non-chiral bent-core liquid crystals with fast linear electro-optic effect. Nat. Commun. 7, 11369 (2016).
Agarwal, K. & Macha, R. Multiple signal classification algorithm for super-resolution fluorescence microscopy. Nat. Commun. 7, 13752 (2016).
Manzo, C. & Garcia-Parajo, M. F. A review of progress in single particle tracking: from methods to biophysical insights. Rep. Prog. Phys. 78, 124601 (2015).
This cable set is designed for use with the DD-rail system and has a ball on each end of the Y-connector, so that you can slide the wire in any position and angle along the length ...
Shain, W. J., Vickers, N. A., Goldberg, B. B., Bifano, T. & Mertz, J. Extended depth-of-field microscopy with a high-speed deformable mirror. Opt. Lett. 42, 995–998 (2017).
Hou, S., Lang, X. & Welsher, K. Robust real-time 3D single-particle tracking using a dynamically moving laser spot. Opt. Lett. 42, 2390–2393 (2017).
Kang, S., Duocastella, M. & Arnold, C.B. Variable optical elements for fast focus control. Nat. Photonics 14, 533–542 (2020). https://doi.org/10.1038/s41566-020-0684-z
AIBlade
Szulzycki, K., Savaryn, V. & Grulkowski, I. Rapid acousto-optic focus tuning for improvement of imaging performance in confocal microscopy. Appl. Opt. 57, C14–C18 (2018).
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Liu, S. & Hua, H. Extended depth-of-field microscopic imaging with a variable focus microscope objective. Opt. Express 19, 353–362 (2011).
Deschout, H. et al. Precisely and accurately localizing single emitters in fluorescence microscopy. Nat. Methods 11, 253–266 (2014).
Patra, R., Agarwal, S., Kondaraju, S. & Bahga, S. S. Membrane-less variable focus liquid lens with manual actuation. Opt. Commun. 389, 74–78 (2017).
Lu, Y. S., Tu, H., Xu, Y. & Jiang, H. Tunable dielectric liquid lens on flexible substrate. Appl. Phys. Lett. 103, 261113 (2013).
The Aqua Illumination Hydra HD series gives more power and color wherever you want. Use your telephone or computer as a controller. The controller is built-in and can be used via iOS or Andriod. The fixtures are also very nice and easy to mount on the edge of the aqaurium through brackets.
Bawart, M., Jesacher, A., Zelger, P., Bernet, S. & Ritsch-Marte, M. Modified Alvarez lens for high-speed focusing. Opt. Express 25, 29847–29855 (2017).
She, A., Zhang, S., Shian, S., Clarke, D. R. & Capasso, F. Adaptive metalenses with simultaneous electrical control of focal length, astigmatism, and shift. Sci. Adv. 4, eaap9957 (2018).
DD Slimline Designer Brackets for mounting Aqua Illumination Hydra, Vega, Hydra 52/26 and Hydra 52/26 HD on the edge of your aquarium
AIHydra 64
Lu, R. et al. Video-rate volumetric functional imaging of the brain at synaptic resolution. Nat. Neurosci. 20, 620–628 (2017).
Inagaki, T., Imai, T., Miyazu, J. & Kobayashi, J. Polarization independent varifocal lens using KTN crystals. Opt. Lett. 38, 2673–2675 (2013).
Xiao, W. & Hardt, S. An adaptive liquid microlens driven by a ferrofluidic transducer. J. Micromech. Microeng. 20, 055032 (2010).
Kong, L., Tang, J. & Cui, M. In vivo volumetric imaging of biological dynamics in deep tissue via wavefront engineering. Opt. Express 24, 1214–1221 (2016).
We acknowledge financial support from Princeton University. M.D. is a Serra Hunter Fellow. M.D. acknowledges Compagnia di San Paolo, ROL 34704.
Yang, X., Song, X., Jiang, B. & Luo, Q. Multifocus optical-resolution photoacoustic microscope using ultrafast axial scanning of single laser pulse. Opt. Express 25, 28192–28200 (2017).
What Is Manufacturing Engineering? · Manufacturing process selection · Process optimization · Manufacturing and assembly vendor development · Product ...
Grewe, B. F., Voigt, F. F., van ’t Hoff, M. & Helmchen, F. Fast two-layer two-photon imaging of neuronal cell populations using an electrically tunable lens. Biomed. Opt. Express 2, 2035–2046 (2011).
Prevedel, R. et al. Simultaneous whole-animal 3D imaging of neuronal activity using light-field microscopy. Nat. Methods 11, 727–730 (2014).
AIPrimelights
Zuo, C., Chen, Q., Qu, W. & Asundi, A. High-speed transport-of-intensity phase microscopy with an electrically tunable lens. Opt. Express 21, 24060–24075 (2013).
Martínez-Corral, M. & Javidi, B. Fundamentals of 3D imaging and displays: a tutorial on integral imaging, light-field, and plenoptic systems. Adv. Opt. Photonics 10, 512–566 (2018).
Fahrbach, F. O., Voigt, F. F., Schmid, B., Helmchen, F. & Huisken, J. Rapid 3D light-sheet microscopy with a tunable lens. Opt. Express 21, 21010–21026 (2013).
Infineon Bias & Control ICs are used to bias radio-frequency power amplifiers by generating accurate voltages with high-precision DACs. In addition they support ...
Kim, S. U., Na, J. H., Kim, C. & Lee, S. D. Design and fabrication of liquid crystal-based lenses. Liq. Cryst. 44, 2121–2132 (2017).
Grulkowski, I., Szulzycki, K. & Wojtkowski, M. Microscopic OCT imaging with focus extension by ultrahigh-speed acousto-optic tunable lens and stroboscopic illumination. Opt. Express 22, 31746–31760 (2014).
Reddy, G. D. & Saggau, P. Fast three-dimensional laser scanning scheme using acousto-optic deflectors. J. Biomed. Opt. 10, 064038 (2005).
Laissue, P. P., Alghamdi, R. A., Tomancak, P., Reynaud, E. G. & Shroff, H. Assessing phototoxicity in live fluorescence imaging. Nat. Methods 14, 657–661 (2017).
2022727 — Since it is a debt fund, a Liquid Fund is subject to Short-term Capital Gains Tax if held for less than three years and taxed as per your income ...
Zong, W. et al. Large-field high-resolution two-photon digital scanned light-sheet microscopy. Cell Res. 25, 254–257 (2015).
The Hydra 32HD is now slimmer, thinner and builds on Aqua Illumination's proven record for producing world-class aquarium lighting. This model offers more control and performan...
Lopez, C. A. & Hirsa, A. H. Fast focusing using a pinned-contact oscillating liquid lens. Nat. Photon. 2, 610–613 (2008).
Mermillod-Blondin, A., McLeod, E. & Arnold, C. B. Acoustic gradient index of refraction lens. Opt. Lett. 33, 2146–2148 (2008).
Zhang, Z., You, Z. & Chu, D. Fundamentals of phase-only liquid crystal on silicon (LCOS) devices. Light Sci. Appl. 3, e213 (2014).
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Rahman, A., Said, S. M. & Balamurugan, S. Blue phase liquid crystal: strategies for phase stabilization and device development. Sci. Technol. Adv. Mater. 16, 033501 (2015).
Bernet, S., Harm, W. & Ritsch-Marte, M. Demonstration of focus-tunable diffractive moiré-lenses. Opt. Express 21, 4317–4322 (2013).
Boucher, P., Barré, N., Pinel, O., Labroille, G. & Treps, N. Continuous axial scanning of a Gaussian beam via beam steering. Opt. Express 25, 23060–23069 (2017).
Ashdown, G., Owen, D. M., Pereira, P. M., Gustafsson, N. & Henriques, R. Fast live-cell conventional fluorophore nanoscopy with ImageJ through super-resolution radial fluctuation. Nat. Commun. 7, 12471 (2016).
DD has adapted the design of the Slimline bracket to attach directly to the top of the lights. With the Gen 2 version you can now slide the light back and forth to different tank w...
The Aqua Illumination Hydra HD series gives more power and color wherever you want. Use your telephone or computer as a controller. The controller is built-in and can be used via iOS or Andriod.
Replacement clamping screws for HTM bracket / Slimline designer bracket. PAY ATTENTION! It is only about the screws, clamps are not included....
Replacement LED pad/print for all Hydra 26 and 52 HD lamps. Installation is very easy. For when your LED pad has broken and needs to be replaced....
Žurauskas, M., Barnstedt, O., Frade-Rodriguez, M., Waddell, S. & Booth, M. J. Rapid adaptive remote focusing microscope for sensing of volumetric neural activity. Biomed. Opt. Express 8, 4369–4379 (2017).
Aqua-illumination Hydra 64 HD LED - white is the latest generation of LED. The latest products in the Hydra line from AquaIllumination, the Hydra 32 & 64 HD. The LED lamps brin...
Donnert, G., Eggeling, C. & Hell, S. W. Major signal increase in fluorescence microscopy through dark-state relaxation. Nat. Methods 4, 81–86 (2007).
Koyama, D., Isago, R. & Nakamura, K. Ultrasonic variable-focus optical lens using viscoelastic material. Appl. Phys. Lett. 100, 091102 (2012).
AIAquarium
Karagyozov, D., Mihovilovic Skanata, M., Lesar, A. & Gershow, M. Recording neural activity in unrestrained animals with 3D tracking two photon microscopy. Cell Rep. 25, 1371–1383 (2018).
Sancataldo, G. et al. Three-dimensional multiple-particle tracking with nanometric precision over tunable axial ranges. Optica 4, 367–373 (2017).
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Chen, H. et al. A large bistable negative lens by integrating a polarization switch with a passively anisotropic focusing element. Opt. Express 22, 13138–13145 (2014).
However, photometric stereo registration is possible with images taken from a moving object (for example, on a conveyor). In the case of a moving object, the ...
Zou, Y., Zhang, W., Tian, F., Siong Chau, F. & Zhou, G. Development of miniature tunable multi-element Alvarez lenses. IEEE J. Sel. Top. Quantum Electron. 21, 2–9 (2015).
Icha, J., Weber, M., Waters, J. C. & Norden, C. Phototoxicity in live fluorescence microscopy, and how to avoid it. BioEssays 39, https://doi.org/10.1002/bies.201700003 (2017).
Kim, J., Kim, J., Na, J.-H., Lee, B. & Lee, S.-D. Liquid crystal-based square lens array with tunable focal length. Opt. Express 22, 3316–3324 (2014).
Now available for the Hydra TwentySix HD ™ and Hydra FiftyTwo HD ™, flex arm mounting is no longer reserved for the AI Prime® only. The Hydra Flex Arm is the simplest and clea...
Wei, M. T. et al. Phase behaviour of disordered proteins underlying low density and high permeability of liquid organelles. Nat. Chem. 9, 1118–1125 (2017).
Nov 12, 2020 — A negative concave lens creates a beam expander by diverging the light rays that pass through it. This causes the beam of light to spread out, ...
Linea SWIR is a GigE line scan camera featuring a cutting-edge InGaAs sensor in a compact package for a wide variety of machine vision applications.
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Zheng, J., Zuo, C., Gao, P. & Nienhaus, G. U. Dual-mode phase and fluorescence imaging with a confocal laser scanning microscope. Opt. Lett. 43, 5689–5692 (2018).
Piazza, S., Bianchini, P., Sheppard, C., Diaspro, A. & Duocastella, M. Enhanced volumetric imaging in 2-photon microscopy via acoustic lens beam shaping. J. Biophotonics 11, e201700050 (2018).
Fuh, Y. K., Huang, W. C., Lee, Y. S. & Lee, S. An oscillation-free actuation of fluidic lens for optical beam control. Appl. Phys. Lett. 101, 2010–2013 (2012).
Lu, S.-H. & Hua, H. Imaging properties of extended depth of field microscopy through single-shot focus scanning. Opt. Express 23, 10714–10731 (2015).
Kawamura, S., Tadayuki, I., Miyazu, J., Sakamoto, T. & Kobayashi, J. 2.5-fold increase in lens power of a KTN varifocal lens by employing an octagonal structure. Appl. Opt. 54, 4197–4201 (2015).
In this Review, we survey recent developments in the emerging field of high-speed variable-z-focus optical elements, which are driving important innovations in advanced imaging and materials processing applications. Three-dimensional biomedical imaging, high-throughput industrial inspection, advanced spectroscopies, and other optical characterization and materials modification methods have made great strides forward in recent years due to precise and rapid axial control of light. Three state-of-the-art key optical technologies that enable fast z-focus modulation are reviewed, along with a discussion of the implications of the new developments in variable optical elements and their impact on technologically relevant applications.
Hao, C. et al. Electrowetting on liquid-infused film (EWOLF): complete reversibility and controlled droplet oscillation suppression for fast optical imaging. Sci. Rep. 4, 6846 (2014).
1 arm mounting bracket, suitable for an AI Hydra 26, 32, 52 or 64. The bracket is meant for so-called Rimless tanks (Aquarium without cap). A maximum of 3 cm (1.2 ") thick glas...
Replacement power suplpy for D&D Aqua Illumination SOL / VEGA / HYDRA / HYDRA26 also known as Aqua Illumination Power Supply SOL / VEGA / HYDRA / HYDRA26 ...
Ee, H. S. & Agarwal, R. Tunable metasurface and flat optical zoom lens on a stretchable substrate. Nano Lett. 16, 2818–2823 (2016).
Department of Mechanical and Aerospace Engineering and Princeton Institute for the Science and Technology of Materials, Princeton University, Princeton, NJ, USA
Oku, H. & Ishikawa, M. High-speed liquid lens with 2 ms response and 80.3 nm root-mean-square wavefront error. Appl. Phys. Lett. 94, 2–5 (2009).
Jin, B., Ren, H. & Choi, W.-K. Dielectric liquid lens with chevron-patterned electrode. Opt. Express 25, 32411–32419 (2017).
Duocastella, M. & Arnold, C. B. Enhanced depth of field laser processing using an ultra-high-speed axial scanner. Appl. Phys. Lett. 102, 061113 (2013).
Dong, L., Agarwal, A. K., Beebe, D. J. & Jiang, H. Adaptive liquid microlenses activated by stimuli-responsive hydrogels. Nature 442, 551–554 (2006).
Aqua Illuminination extension cable for PSU. This cable is intended for extending the cable between the power supply and the AI lamp. Suitable for all AI lamps ....
Kang, S., Dotsenko, E., Amrhein, D., Theriault, C. & Arnold, C. B. Ultra-high-speed variable focus optics for novel applications in advanced imaging. Proc. SPIE 10539, https://doi.org/10.1117/12.2294487 (2018).
AIHydra 32
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Shukla, R. K. et al. Electro-optic and dielectric properties of a ferroelectric liquid crystal doped with chemically and thermally stable emissive carbon dots. RSC Adv. 5, 34491–34496 (2015).
Li, L., Wang, J.-H., Wang, Q.-H. & Wu, S.-T. Displaceable and focus-tunable electrowetting optofluidic lens. Opt. Express 26, 25839–25848 (2018).
Shibaguchi, T. & Funato, H. Lead–lanthanum zirconate–titanate (PLZT) electrooptic variable focal-length lens with stripe electrodes. Jpn. J. Appl. Phys. 31, 3196–3200 (1992).
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Koyama, D., Isago, R. & Nakamura, K. Three-dimensional focus scanning by an acoustic variable-focus optical liquid lens. AIP Conf. Proc. 1474, 355–358 (2012).
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Bharath, M. et al. Compact vari-focal augmented reality display based on ultrathin, polarization-insensitive, and adaptive liquid crystal lens. Opt. Lasers Eng. 128, 26–32 (2020).
The Hydra 32HD is now slimmer, thinner and builds on Aqua Illumination's proven record for producing world-class aquarium lighting. This model offers more control and performan...
Hausotte, T., Gröschl, A. & Schaude, J. High-speed focal-distance-modulated fiber-coupled confocal sensor for coordinate measuring systems. Appl. Opt. 57, 3907–3914 (2018).
Kaplan, A., Friedman, N. & Davidson, N. Acousto-optic lens with very fast focus scanning. Opt. Lett. 26, 1078–1080 (2001).
Duocastella, M., Theriault, C. & Arnold, C. B. Three-dimensional particle tracking via tunable color-encoded multiplexing. Opt. Lett. 41, 863–866 (2016).
Shin, D., Kim, C., Koo, G. & Won, Y. Depth plane adaptive integral imaging system using a vari-focal liquid lens array for realizing augmented reality. Opt. Express 28, 5602–5616 (2020).
Dertinger, T., Colyer, R., Iyer, G., Weiss, S. & Enderlein, J. Fast, background-free, 3D super-resolution optical fluctuation imaging (SOFI). Proc. Natl Acad. Sci. USA 106, 22287–22292 (2009).
Miccio, L., Paturzo, M., Grilli, S., Vespini, V. & Ferraro, P. Hemicylindrical and toroidal liquid microlens formed by pyro-electro-wetting. Opt. Lett. 34, 1075–1077 (2009).
Murade, C. U., Van Der Ende, D. & Mugele, F. High speed adaptive liquid microlens array. Opt. Express 20, 18180–18187 (2012).
Then in 1948 Edmund opened a larger facility in nearby Barrington, New Jersey, and changed the name to Edmund Scientific Co. The firm soon attracted ...
Chen, T., Fardel, R. & Arnold, C. B. Ultrafast z-scanning for high-efficiency micro-machining. Light Sci. Appl. 7, 17181 (2018).
202024 — 4 Core Components of a Microscope Objective Lens · Meniscus and hemispherical lenses: A meniscus lens contains two spherical curved surfaces, ...
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